In this paper, the operating principle of a micromachined,
dynamically tuned gyroscope, based on a contactless
suspension is discussed and its mathematical model is
derived. Dynamical analysis based on this mathematical model
is conducted. The analysis shows that such a gyroscope can be
created in principal and provides a value for the gyroscope
gain to measuring angular rate which is several orders of
magnitude greater in comparison with existed prototypes of the
micromachined gyroscope based on a contactless suspension.